Introduction to Bioinformatics
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1 Introduction to Bioinformatics Alla L Lapidus, Ph.D. SPbSU St. Petersburg
2 Term Bioinformatics Term Bioinformatics was invented by Paulien Hogeweg (Полина Хогевег) and Ben Hesper in 1970 as "the study of informatic processes in biotic systems". Paulien Hogeweg is a Dutch theoretical biologist and complex systems researcher studying biological systems as dynamic information processing systems at many interconnected levels.
3 Definitions of what is Bioinformatics Bioinformatics is the use of IT in biotechnology for the data storage, data warehousing and analyzing the DNA sequences. In Bioinfomatics knowledge of many branches are required like biology, mathematics, computer science, laws of physics & chemistry, and of course sound knowledge of IT to analyze biotech data. Bioinformatics Bioinformatics is not limited is an to interdisciplinary the computing field data, that but develops in reality and it improves can be upon used to solve many methods biological for storing, problems retrieving, and find organizing out how living and analyzing things works. biological data. A major activity in bioinformatics is to develop software tools to generate useful biological knowledge. The mathematical, statistical and computing methods that aim to solve biological problems using DNA and amino acid sequences and related information. Bioinformatics develops algorithms and biological software of computer to analyze and record the data related to biology for example the data of genes, proteins, drug ingredients and metabolic pathways. dditions: 1. Bioinformatics is a SCIENCE 2. Not only to develop algorithms, store, retrieve, organize and analyze biological data but to CURATE data 3
4 Biology + computer science + information Biologists collect molecular data: DNA & Protein sequences, gene expression, etc. technology Bioinformaticians Answer biological questions by analyzing molecular data Computer scientists (+Mathematicians, Statisticians, etc.) Develop tools, softwares, algorithms to store and analyze the data. 4
5 Bioinformatics is being used in following fields: Microbial genome applications Molecular medicine Personalised medicine Preventative medicine Gene therapy Drug development Antibiotic resistance Evolutionary studies Waste cleanup Biotechnology Climate change Studies Alternative energy sources Crop improvement Forensic analysis Bio-weapon creation Insect resistance Improve nutritional quality Development of Drought resistant varieties Vetinary Science 5
6 Bottlenecks in bioinformatics education of biologists in the use of advanced computing tools the recruitment of computer scientists into the field of bioinformatics the limited availability of developed databases of biological information need for efficient and intelligent search engines for complex databases need for innovative NGS pipelines
7 Central dogma of Molecular Biology DNA makes RNA makes Protein DNA RNA PROTEIN DNA sequence DNA mutations DNA re-arangements Comparative analysis RNA sequence mrna (level) Protein Sequence Protein Structure Protein Function
8 DNA QC Sequencing projects lib QC Run QC Data QC DNA Libraries fastq Data analysis Results Interpretation Data applications LIMS - Lab Information Management Software
9 OMICS GENOMICS TRANSCRIPTOMICS PROTEOMICS SYSTEMS BIOLOGY LIPIDOMICS METABOLOMICS
10 Complex data sets DNA - one-dimensional information RNA - two-dimensional information proteins - three-dimensional information living systems - four-dimensional information
11 Microbial genome applications Genome assembly Re-sequencing Comparative analysis Evolutionary studies Antibiotic resistance Waste cleanup Biotechnology 11
12 Genome Assembly Genome assembly is a very complex computational problem due to enormous amount of data to put together and some other reasons reasons. Ideally an assembly program should produce one contig for every chromosome of the genome being sequenced. But because of the complex nature of the genomes, the ideal conditions just never possible, thus leading to gaps in the genome. 12
13 De Novo assembly - puzzle without the picture
14 Assembly Challenges Presence of repeats. Repeats are identical sequences that occur in the genome in different locations and are often seen in varying lengths and in the multiple copies. There are several types of repeats: tandem repeats or interspersed repeats. The read's originating from different copies of the repeat appear identical to the assembler, causing errors in the assembly. Contaminants in samples (eg. from Bacteria or Human). PCR artefacts (eg. Chimeras and Mutations) Sequencing errors, such as Homopolymer errors when eg. 2+ run of same base. MID s (multiplex indexes), primers/adapters still in the raw reads. polyploid genomes 14
15 Assembly algorithms Overlap-Layout-Consensus - Find overlaps between all reads reads Consensus Problems caused by new sequencing technologies: Hard to find overlaps between short reads Impossible to scale up 15
16 De Bruijn graph ACGTCGTA k=2 AC CG GT TA ABySS ALLPATHS-LG EULER IDBA Velvet TC Modified from Andrey Prjibelski
17 E. coli isolate dataset Single-cell dataset IDBA-UD SPAdes Velvet E.coli single-cell dataset
18 SPAdes pipeline SPAdes Input data Error correction Assembly Postprocessing Contigs 18
19 19
20 Gene Prediction and Genome Annotation ATG TAA ATG Based on similarity to known genes blastx (NCBI) Gene finding programs TAA Glimmer for most procaryotic genomes GenMark for both procaryotic genomes and eucaryotic genomes 20
21
22 Re-sequencing -characterizing the genetic variations of species or populations Re-sequencing of bacterial and archaeal isolates etc is possible if reference genomes are available This approach can help to better understand bacterial community structure, gene function in bacteria under selective pressure or in mutagenized strains.
23 Climate change Studies Increasing levels of carbon dioxide emission are thought to contribute to global climate change. One way to decrease atmospheric carbon dioxide is to study the genomes of microbes that use carbone dioxidet as their sole carbon source
24 Prevotella species were most dramatically reduced among samples from autistic children especially P. copri. (helps the breakdown of protein and carbohydrate foods) Human microbiome MetaHIT - Europe Human Microbiome Project US The human microbiome includes viruses, fungi and bacteria, their genes and their environmental interactions, and is known to influence human physiology. There s very broad variation in these bacteria in different people and that severely limits our ability to create a normal microflora profile for comparison among healthy people and those with any kind of health issues. Children with autism harbor significantly fewer types of gut bacteria than those who are not affected by the disorder, researchers have found.
25 Bioinformatics in clinics - it can explore the causes of diseases at the molecular level - explain the phenomena of the diseases on the gene/pathway level - make use of computer techniques (data mining, machine learning etc), to analyze and interpret data faster - to enhance the accuracy of the results Reduce the cost and time of drug discovery
26 To improve drug discovery we need to discover (read "develop") efficient bioinformatics algorithms and approaches for target identification target validation lead identification lead optimization
27 Bioinformatics and Health Informatics If bioinformatics is the study of the flow of information in biological sciences, Health Informatics is the study of the information in patient care 27
28 Medicine: Informatics pipeline workflow Sample Patient Physician Order Tier 2: Genome Annotation Medical Knowledgebase Sequence Tier 1: Base Calling Alignment Variant Calling EHR Tier 3: Clinical Report
29 Huge need in bioinformatics tools Simple pipelines/protocols and easy to read reports Sample sequencing Data Analysis Patients treatment
30 Team work to set up cancer sequencing facility molecular oncologists (pathway analysis) IT infrastructure (storage, updates etc) 30
31 Each baby to be sequenced at birth: personal reference -? GATTACA, 1997
32 De Bruijn graph in a nutshell Don t trouble till you troubles and it doubles others only too
33 THANK YOU!
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